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Is Physics everywhere? Having physics is the only way the the universe and everything in it can exist! In short, yes, physics is everywhere, but its much more than just that. From the largest Stars in the galaxy to the small strands of energy called "Strings", using physics is the way that we describe why and how things happen in our universe.
What else can I help you with?
Why the law of gravity same everywhere?
The law of gravity is the same everywhere because it is a fundamental force of nature that acts uniformly on all objects with mass. This consistency across the universe is a reflection of the underlying nature of space and time as described by the principles of physics.
What is the physics concept applied in computer?
In computer science, physics concepts such as electricity, magnetism, and quantum mechanics are applied to understand how hardware components like processors, memory, and storage devices function. Additionally, principles from thermodynamics are used in designing efficient cooling systems for computers to prevent overheating.
Why was Einstein awarded the Nobel Prize in physics?
Albert Einstein was awarded the Nobel Prize in Physics for his 1905 paper on the photo-electric effect, in which light hitting a metal surface could generate electricity. This was the theoretical basis for all of the solar power collectors that you see everywhere.
What is No physics no life?
"No physics no life" is a phrase that emphasizes the fundamental role of physics in understanding the natural world and the universe. Physics is the science that seeks to explain how the universe works at the most fundamental level, from the behavior of subatomic particles to the dynamics of galaxies. Without physics, our understanding of the physical laws that govern our existence would be severely limited, and many technological advancements that have improved our quality of life would not have been possible.
Why does everyone trust in gravity?
Gravity is a fundamental force of nature that can be observed everywhere. Its effects are predictable and consistent, which is why people trust in it. Additionally, scientific evidence from various fields like physics and astronomy support the existence and influence of gravity.
Is Inertia net force used in tennis?
yes, the physics of inertia apply everywhere that inertia will be
Can a mass be zero outside the earth?
Universality is a fundamental principle in physics - the same laws of physics apply everywhere at all times. So if the mass of something on earth is zero (such as the rest mass of a photon), then the mass will be zero everywhere in the universe, disregarding the effects of relativistic mass. Do not confuse mass with weight - mass is invariable - it is the same everywhere. Weight, however, diminishes in proportion to the square of the distance you travel away from the center of planet earth.
Do Greeks need to clean their houses?
YES. The same laws of physics apply in Greece as everywhere else; if you do not clean your house, it will get dirty.
Why the law of gravity same everywhere?
The law of gravity is the same everywhere because it is a fundamental force of nature that acts uniformly on all objects with mass. This consistency across the universe is a reflection of the underlying nature of space and time as described by the principles of physics.
Theories that Albert Einstein are credited for?
Albert Einstein is credited with the theory that the speed of light is constant. He is also credited with stating the laws of physics exist everywhere.
How can levers and pulleys lift samples from other planets surfaces?
Because the same laws of physics apply everywhere in the universe, including all the other planets.
What is 2007 - 1992 in maths equals?
15
What is the physics concept applied in computer?
In computer science, physics concepts such as electricity, magnetism, and quantum mechanics are applied to understand how hardware components like processors, memory, and storage devices function. Additionally, principles from thermodynamics are used in designing efficient cooling systems for computers to prevent overheating.
When do you use physics?
You may never have to use physics. But physics can be applied everywhere. Your weight is a matter of physics, since weight is a force caused by gravity. Your eyesight is a matter of physics, where what you see is based upon light waves, diffraction of waves, and refraction of waves. What you hear is also a matter of physics, where sound waves have wavelengths of approximately 340 m/s. The whole universe is governed by physics through a universal law of gravitation (which also keeps our solar system in sync). Even your energy is a matter of physics, with potential energy (that which you have not used yet) and kinetic energy (energy used when in motion). And, last but not least, electricity and magnetism are both components of physics. These are just a few examples of the numerous times you can use physics in your life.
Why was Einstein awarded the Nobel Prize in physics?
Albert Einstein was awarded the Nobel Prize in Physics for his 1905 paper on the photo-electric effect, in which light hitting a metal surface could generate electricity. This was the theoretical basis for all of the solar power collectors that you see everywhere.
Is everywhere a verb?
There are verbs everywhere, but everywhere is not one of them. Everywhere is an adverb.
Is gravity the same everywere in the universe?
The laws of gravity seems to be the same everywhere in the Universe. There have been experiments using distant objects in the Universe to try and measure if it might be different far away (or back in time!), but no effect has been found to date. In fact, the question seems to tie in with the question whether the laws of physics are the same everywhere in the Universe. This is because one can derive the equations of general relativity assuming the laws are the same everywhere for everyone. This is a bit technical, but basically if you want the laws of physics to be the same for everyone you MUST have gravity in the form Einstein proposed, there is no other way. Of course other deviations from our laws of physics have been looked for, but again none have been found.
